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Thursday, September 29, 2011

Here are some images plus a composite of Revells 1/400 scale Ocean Liner Queen Mary Two. Coming in at 1,132 feet long, 135 wide and at a whopping 148,528 tons makes the QMII the largest ocean liner in the world although there are larger cruise ships. This was a nice and a big model to build. The kit costs around $100 Cdn.

The ship was named by Queen Elizabeth II in 2004 after the first RMS Queen Mary, completed in 1936. Queen Mary was in turn named after Mary of Teck, consort of King George V. With the retirement of Queen Elizabeth 2 from active duty in 2008, Queen Mary 2 is currently the only transatlantic ocean liner in operation as a liner (in scheduled service between Southampton and New York ), although the ship is often used for cruising, including an annual world cruise.[6][dead link]

Queen Mary 2 was intended primarily to cross the Atlantic Ocean, and was therefore designed differently from many other passenger ships. The ship's final cost was approximately $300,000 US per berth, nearly double that of many contemporary cruise ships. This was due to the size of the ship, the high quality of materials, and that, having been designed as an ocean liner, she required 40% more steel than a standard cruise ship. She has a maximum speed of just over 30 knots (56 km/h; 35 mph) and a cruising speed of 26 knots (48 km/h; 30 mph), much faster than contemporary cruise ships, such as Oasis of the Seas, which has a top speed of 22.6 knots (41.9 km/h; 26.0 mph). Instead of the diesel-electric configuration found on many ships, Queen Mary 2 uses a CODLAG configuration (Combined diesel-electric and gas) in order to achieve her maximum speed. This uses additional gas turbines to augment the power given by the diesel generators onboard, and allow the ship to reach a higher maximum speed.

Queen Mary 2's facilities include fifteen restaurants and bars, five swimming pools, a casino, a ballroom, a theatre, and the first planetarium at sea. There are also kennels onboard, as well as a nursery. Queen Mary 2 is one of the few ships afloat today to have remnants of a class system onboard, most prominently seen in her dining options.

Sunday, September 25, 2011

Here are some images of Italeris 1/48 scale Lockheed C-130-J Super Hercules. this is the transport/cargo aircraft in which others are measured. First flown in 1954 this aircraft is still in production to this day. This type was also produced in a civil form as well. This kit seems to have been around for almost as long and every time Italeri re releases this kit it seems to move up a letter.

From Wikipedia"

The Lockheed Martin C-130J "Super" Hercules is a four-engine turbopropmilitary transport aircraft. The C-130J is a comprehensive update of the venerable Lockheed C-130 Hercules, with new engines, flight deck, and other systems. The Hercules family has the longest continuous production run of any military aircraft in history. During more than 50 years of service, the family has participated in military, civilian, and humanitarian aid operations. The Hercules has outlived several planned successor designs, most notably the Advanced Medium STOL Transport contestants. Fifteen nations have placed orders for a total of 300 C-130Js, of which 206 aircraft have been delivered by December 2010.

The C-130J is the newest version of the Hercules and the only model still in production. Externally similar to the classic Hercules in general appearance, the J-model features considerably updated technology. These differences include new Rolls-Royce AE 2100 D3 turboprops with Dowty R391compositescimitar propellers, digital avionics (including head-up displays (HUDs) for each pilot), and reduced crew requirements. These changes have improved performance over its C-130E/H predecessors, such as 40% greater range, 21% higher maximum speed, and 41% shorter takeoff distance. The J-model is available in a standard-length or stretched -30 variant.

The C-130J's crew includes two pilots and one loadmaster (no navigator or flight engineer). The United States Marine Corps utilizes a crew chief for expeditionary operations. Its cargo compartment is approximately 41 feet (12.5 m) long, 9 feet (2.74 m) high, and 10 feet (3.05 m) wide, and loading is from the rear of the fuselage. The aircraft can also be configured with the "enhanced cargo handling system". The system consists of a computerized loadmaster's station from which the user can remotely control the under-floor winch and also configure the flip-floor system to palletized roller or flat-floor cargo handling. Initially developed for the USAF, this system enables rapid role changes to be carried out and so extends the C-130J's time available to complete taskings.

Lockheed Martin received the launch order for the J-model from the RAF, which ordered 25 aircraft, with first deliveries beginning in 1999 as Hercules C4 (C-130J-30) and Hercules C5 (C-130J). The standard C-130J had a flyaway cost of US$62 million in 2008.

In mid-June 2008, the United States Air Force awarded a $470 million contract to Lockheed Martin for six modified KC-130J aircraft for use by the Air Force and Special Operations Command. The contract led to C-130J variants that will replace aging HC-130s and MC-130s. The HC-130J Combat King II personnel recovery aircraft completed developmental testing on 14 March 2011. The final test point was air-to-air refueling, and was the first ever boom refueling of a C-130 where the aircraft’s refueling receiver was installed during aircraft production. This test procedure also applied to the MC-130J Combat Shadow II aircraft in production for Air Force Special Operations Command.

Thursday, September 22, 2011

Here are some images of Trumpeter's 1/32 Mikoyan Gurevich MiG 15 Bis.The two big problems I've noticed with this model is the back half of the fuselage does not line up properly with the front half which is OK because it will be displayed in two parts anyway. The second problem is the canopy. The canopy framework lines are far two thick for this aircraft and I intend on replacing it with an aftermarket part just as soon as the opportunity arises.

From Wikipedia"

The Mikoyan-Gurevich MiG-15 (Russian: Микоян и Гуревич МиГ-15) was a jetfighter developed for the USSR by Artem Mikoyan and Mikhail Gurevich. The MiG-15 was one of the first successful swept-wing jet fighters, and it achieved fame in the skies over Korea, where early in the war, it outclassed all straight-winged enemy fighters in daylight. The MiG-15 also served as the starting point for development of the more advanced MiG-17 which was still an effective threat to supersonic American fighters over North Vietnam in the 1960s. The MiG-15 is believed to have been the most widely produced jet aircraft ever made, with over 12,000 built. Licensed foreign production perhaps raised the total to over 18,000. The MiG-15 is often mentioned along with the North American F-86 Sabre in lists of the best fighter aircraft of the Korean War and in comparison with fighters of other eras.

In the 1950s and early 1960s, the Soviet Union shared most of its conventional weapons technology with the People's Republic of China. One of these was the limited cooperation between the two countries in the early stage development of the famous MiG-21 short-range interceptor-fighter aircraft. Powered by a single engine and designed on a simple airframe, these fighters were inexpensive but fast, suiting the strategy of forming large groups of 'people's fighters' to overcome the technological advantages of Western aircraft. However, the Sino-Soviet split ended Chinese early participation in the developmental program of the MiG-21 abruptly, and from July 28 to September 1, 1960, the Soviet Union withdrew its advisers from China, resulting in the project being forced to stop in China.

However, Nikita Khrushchev suddenly wrote to Mao Zedong in February, 1962 to inform Mao that the Soviet Union was ready to transfer MiG-21 technology to China and asked the Chinese to send their representatives to the Soviet Union as soon as possible to discuss the details. The Chinese viewed this as a Soviet gesture to make peace, and were obviously suspicious, but they were extremely quick to take up on the Soviet offer for the aircraft deal. A delegation headed by Colonel General Liu Yalou (刘亚楼), the commander-in-chief of the PLAAF and a Soviet military academy graduate was dispatched to Moscow immediately and the Chinese delegation was even allowed to have three days to visit the production facility of the MiG-21, which was previously off limits to foreigners. The authorization was personally given by Nikita Khrushchev himself, and on March 30, 1962, the deal was signed. However, given the political situation and relationship between the two countries, the Chinese were not optimistic about gaining the technology and thus were prepared for reverse engineering.

Russian sources stated that complete examples of the MiG-21 were sent to China flown by Soviet pilots, and China did receive MiG-21Fs in kits along with parts and technical documents. Just as the Chinese had expected, when the Soviets delivered the kits, parts and documents to Shenyang Aircraft Factory five months after the deal was signed the Chinese discovered that the technical documents provided by the Soviets were incomplete and some of the parts could not be used. China set about to reverse engineer the aircraft for local production, and in doing so, succeeded in solving 249 major problems and came up with eight major technical documents that were not delivered. The effort was largely successful, as the Chinese design showed only minor differences from the original. In March, 1964, Shenyang Aircraft Factory began the first domestic production of the jet fighter, which they successfully achieved the next year. However, the mass production of the aircraft was severely hindered by an unexpected problem—the Cultural Revolution, which resulted in poor initial quality and slow progress, which in turn, resulted in full scale production only coming about in the 1980s, by which time the design was showing its age. However, the fighter is affordable and widely exported as the F-7, often with Western systems incorporated like the ones sold to Pakistan. Based on the expertise gained by this program, China later developed the Shenyang J-8 by utilizing the incomplete technical information of the Soviet Ye-152 developmental jet.

F-7MG Export variant of the J-7MG, with the single piece windshield replacing the 3-piece windshield of the J-7MG. Evolved to F-7BG. Zimbabwe bought at least 12 of these in 2004.

Friday, September 16, 2011

Later production variants The production of the Bf 110 was put on a low priority in 1941 in expectation of its replacement by the Me 210. During this time, two versions of the Bf 110 were developed, the E and F models. The E was designed as a fighter bomber (Zerstörer Jabo), able to carry four 50 kg (110 lb) ETC-50 racks under the wing, along with the centerline bomb rack. The first E, the Bf 110 E-1 was originally powered by the DB 601B engine, but shifted to the DB 601P as they became available in quantity. A total of 856 Bf 110E models were built between August 1940 and January 1942. The E models also had upgraded armour and some fuselage upgrades to support the added weight. Most pilots of the Bf 110E considered the aircraft slow and unresponsive, one former Bf 110 pilot commenting the E was "rigged and a total dog."

The Bf 110F featured the new DB 601F engines which produced 993 kW/1,350 PS (almost double the power the original Jumo engines provided), which allowed for upgraded armour, strengthening, and increased weight with no loss in performance. Three common versions of the F model existed. Pilots typically felt the Bf 110F to be the best of the 110 line, being fully aerobatic and in some respects smoother to fly than the Bf 109, though not as fast. Eventually 512 Bf 110F models were completed between December 1941 and December 1942, when production gave way to the Bf 110G.

Although the Me 210 entered service in mid-1941, it was eventually withdrawn for further development. There were insufficient aircraft to fully replace the Bf 110, so it remained in service until the end of the war. In the wake of the failure of the Me 210, the Bf 110G was designed. Fitted with the DB 605B engines, producing 1,085 kW (1,475 PS) in "War Emergency" setting, and 997 kW (1,355 PS) at 5.8 km (19,000 ft) altitude, the Bf 110G also underwent some changes which improved the aerodynamics of the aircraft, as well as upgrading the nose armament. No Bf 110 G-1 existed, as the Bf 110 G-2 became the baseline Bf 110G and was fitted with a large number of Rüstsätze, making the G the most versatile of the Bf 110. The initial batch of six pre-series production G-0 aircraft built in June 1942 followed by 797 G-2, 172 G-3 and 2,293 G-4 models, built between December 1942 and April 1945. Pilots reported the Bf 110G to be a "mixed bag" in the air, in part due to all changes between the G and F series. However the Bf 110G was considered a superior gun platform with excellent all-around visibility, and considered, until the advent of the Heinkel He 219, the best of the Luftwaffe night fighters.

Armament

The Bf 110's main strength was its ability to accept unusually powerful air-to-air weaponry. Early versions had four 7.92 mm (.312 in) MG 17 machine guns in the upper nose and two 20 mm MG FF/M cannons fitted in the lower part of the nose. Later versions replaced the MG FF/M with the more powerful 20 mm MG 151/20 cannons and many G-series aircraft, especially those who served in the bomber-destroyer role, had two 30 mm (1.18 in) MK 108 cannons fitted instead of the MG 17. The defensive armament consisted of a single, flexibly-mounted 7.92 mm (.312 in) MG 15 machine gun. Late F-series and prototype G-series were upgraded to a 7.92 mm (.312 in) MG 81 machine gun with a higher rate of fire and the G-series was equipped with the twin-barrelled MG 81Z. Many G-series night fighters were retrofitted or factory-built with the Schräge Musik off-bore gun system, firing upward at an oblique angle for shooting down bombers while passing underneath, frequently equipped with two 20 mm MG FF/M, but field installations of the 20 mm MG 151/20 or 30 mm (1.18 in) MK 108 cannons were also utilized. The Schräge Musik weapons were typically mounted to the back of the rear cockpit.

The Bf 110 G-2/R1 was also capable of accepting armament such as the Bordkanone series 37 mm (1.46 in) BK 37 cannon. A single hit from this weapon was enough to destroy any Allied bomber.

The fighter-bomber versions could carry up to 2,000 kg (4,410 lb) of bombs, depending on the type.

The Bf 110 would be the backbone of the Nachtjagdgeschwader throughout the war. The first units undertook defence operations over Germany as early as the autumn of 1940. Opposition was light until 1942, when British heavy bombers started to appear.

One of the most notable actions of the Bf 110 occurred on the night of the 17/18 August 1943. Bf 110 units had been mass equipped with the Schräge Musik system, an emplacement of two upward-firing cannon, mounted almost midway down the cockpit canopy behind the pilot, which could attack the blind spot of RAF Bomber Command's Avro Lancaster bombers, which lacked a ventral turret. Using this, NJG 5's Leutnant Peter Erhardt destroyed four bombers in 30 minutes. Despite excellent visibility, none of the RAF bombers had reported anything unusual that would indicate a new weapon or tactics in the German night fighter force. This ignorance was compounded by the tracerless ammunition used by the Bf 110s, as well as firing on the British bombers blind spots. Many RAF crews witnessed a sudden explosion of a friendly aircraft, but assumed, in some cases, it was very accurate flak. Few of the German fighters were seen, let alone fired on.

In September 1943, Arthur Harris, convinced a strategic bombing campaign against Germany's cities would force a German collapse, pressed for further mass attacks. While RAF Bomber Command destroyed Hannover's city centre and 86% of crews dropped their bombs within 5 km (3 mi) of the aiming point, losses were severe. The Ruhr Area was the prime target for British bombers in 1943, and German defences inflicted a considerable loss rate. The Bf 110 had a hand in the destruction of some 2,751 RAF bombers in 1943, along with German flak and other night fighters. Later, the RAF developed a radar countermeasure; Window, to confuse German defences and introduced de Havilland Mosquitos to fly feints and divert the Bf 110s and other night fighter forces from their true target, which worked, initially. At this time, the Bf 110 remained the backbone of the fight-force, although it was now being reinforced by the Junkers Ju 88. In October 1943, GeneralJosef Kammhuber reported the climbing attrition rate as "unacceptable", and urged Hermann Göring to stop committing the German night fighters to daylight operations. Many Nachtjagdgeschwader had taken part in costly daylight battles of attrition. From June-August, it had increased from around 2% to 9.8%. However the fortunes for the mostly Bf 110 equipped force turned during late August/September 1943. The night fighter arm claimed the destruction of 123 out of some 1,179 bombers over Hamburg on one night; a 7.2% loss rate. During the Battle of Berlin, 1,128 bombers were lost in five months. RAF Bomber Command had "nearly burned out". These losses were primarily a result of fighter defences, at the heart of which was the Bf 110. The German defences had won a victory which prevented deep penetration raids for a time. But Luftwaffe losses were high; 15% of crews were killed in the first three months of 1944.

Thursday, September 15, 2011

The Messerschmitt Bf 110, often (erroneously) called Me 110, was a twin-engine heavy fighter (Zerstörer - German for "Destroyer") in the service of the Luftwaffe during World War II. Hermann Göring was a proponent of the Bf 110, and nicknamed it his Eisenseiten ("Ironsides"). Development work on an improved type to replace the Bf 110, the Messerschmitt Me 210 began before the war started, but its teething troubles resulted in the Bf 110 soldiering on until the end of the war in various roles, alongside its replacements, the Me 210 and the Me 410.

The Bf 110 served with success in the early campaigns, the Polish, Norwegian and Battle of France. The Bf 110's lack of agility in the air was its primary weakness. This flaw was exposed during the Battle of Britain, when some Bf 110-equipped units were withdrawn from the battle after very heavy losses and redeployed as night fighters, a role to which the aircraft was well suited. The Bf 110 enjoyed a successful period following the Battle of Britain as an air superiority fighter and strike aircraft in other theatres. During the Balkans Campaign, North African Campaign and on the Eastern Front, it rendered valuable ground support to the German Army as a potent fighter-bomber (Jagdbomber or Jabo). Later in the war, it was developed into a formidable night fighter, becoming the major night-fighting aircraft of the Luftwaffe. Most of the German night fighter aces flew the Bf 110 at some point during their combat careers, and the top night fighter ace of all time, MajorHeinz-Wolfgang Schnaufer, flew it exclusively and claimed 121 victories in 164 combat missions.

Genesis and competition Throughout the 1930s, the air forces of the major military powers were engaged in a transition from biplane to monoplane designs. Most concentrated on the single-engine fighter aircraft. But the problem of range arose. The Reichsluftfahrtministerium (RLM), pushed by Hermann Göring, issued a request for a new multipurpose fighter called the Kampfzerstörer (battle destroyer) with long range and an internal bombload. The request called for a twin-engine, three-seat, all-metal monoplane that was armed with cannon as well as a bomb bay. Only Bayerische Flugzeugwerke (Messerschmitt), Focke-Wulf and Henschel responded of the original seven companies.

Messerschmitt defeated Focke-Wulf, Henschel and Arado, and was given the funds to build several prototype aircraft. The Focke-Wulf design, the Focke-Wulf Fw 57, had a wing span of some 25.6 m (84 ft) and was powered by two DB 600 engines. It was armed with two 20 mm MG FF cannons in the nose and a third was positioned in a dorsal turret. The Fw 57 V1 flew in 1936 but its performance was poor and the machine crashed.The Henschel Hs 124 was similar in construction layout to the Fw 57. Equipped with two Jumo 210C for the V1. The V2 utilized the BMW 132Dc radial engines generating 870 PS compared with the 640 PS Jumo. The armaments consisted of a single rearward-firing 7.92 mm (.312 in) MG 15 machine gun and a single forward-firing 20 mm MG FF cannon.

Messerschmitt omitted the internal bomb load requirement from the RLM directive to increase the armament element of the RLM specification. The Bf 110 was far superior to its rivals in providing the speed, range and firepower to meet its role requirements. By the end of 1935, the Bf 110 had evolved into an all-metal, low-wing cantilever monoplane of semi-monocoque design featuring twin rudders and powered by two DB 600A engines. The design was also fitted with Handley-Page wing slots.

Early variants

By luck (and pressure by Ernst Udet), RLM reconsidered the ideas of the Kampfzerstörer and began focussing on the Zerstörer. Due to these changes, the Bayerische Flugzeugwerke design better fitted RLM's requests. On 12 May 1936, Rudolf Opitz flew the first Bf 110 out of Augsburg. But, as many pre-war designs found, the engine technologies promised were not up to acceptable reliability standards. Even with the temperamental DB 600 engines, the RLM found the Bf 110, while not as maneuverable as desired, was quite a bit faster than its original request specified, as well as faster than the then-current front line fighter, the Bf 109 B-1. Thus the order for four pre-production A-0 units was placed. The first of these were delivered on January 1937. During this testing, both the Focke-Wulf Fw 187 and Henschel Hs 124 competitors were rejected and the Bf 110 was ordered into full production.

The initial deliveries of the Bf 110 encountered several issues with delivery of the DB 600 motors, which forced Bayerische Flugzeugwerke to install Junkers Jumo 210B engines, leaving the Bf 110 seriously underpowered and able to reach a top speed of only 431 km/h (268 mph). The armament of the A-0 units was also limited to four nose-mounted 7.92 mm (.312 in) MG 17 machine guns.

Even without delivery of the DB 600 engines, Bayerische Flugzeugwerke began assembly of the Bf 110 in the summer of 1937. As the DB 600 engines continued to have issues, Bayerische Flugzeugwerke was forced to keep on using Jumo motors, the 210G, which supplied 515 kW (700 PS) each (versus the 471 kW/640 PS supplied by the 210B). Three distinct versions of the Bf 110B were built, the B-1, which featured four 7.92 mm (.312 in) MG 17 machine guns and two 20 mm MG FF cannons. The B-2 reconnaissance version, which had a camera in place of the cannons, and the B-3 which was used as a trainer, with the cannons replaced by extra radio equipment. Only 45 Bf 110Bs were built before the Jumo 210G engine production line ended. The major identifier of the A and B 110s was the very large "mouth" bath radiators located under the engine.

In late 1938, the DB 601 B-1 engines finally became available. With the new engine, the design teams removed the radiators under the engine and replaced them with water/glycol radiators, placing them under the wing to the outside of the engines. With the DB 601 engine, the Bf 110's maximum speed increased to a respectable 541 km/h (336 mph) with a range of approximately 1,094 km (680 mi).

The P-38J was introduced in August 1943. The turbo-supercharger intercooler system on previous variants had been housed in the leading edges of the wings and had proven vulnerable to combat damage and could burst if the wrong series of controls were mistakenly activated. In the P-38J model, the streamlined engine nacelles of previous Lightnings were changed to fit the intercooler radiator between the oil coolers, forming a "chin" that visually distinguished the J model from its predecessors. While the P-38J used the same V-1710-89/91 engines as the H model, the new core-type intercooler more efficiently lowered intake manifold temperatures and permitted a substantial increase in rated power. The leading edge of the outer wing was fitted with 55 gal (208 l) fuel tanks, filling the space formerly occupied by intercooler tunnels, but these were omitted on early P-38J blocks due to limited availability.

The final 210 J models, designated P-38J-25-LO, alleviated the compressibility problem through the addition of a set of electrically-actuated dive recovery flaps just outboard of the engines on the bottom centerline of the wings. With these improvements, a USAAF pilot reported a dive speed of almost 600 mph (970 km/h), although the indicated air speed was later corrected for compressibility error, and the actual dive speed was lower. Lockheed manufactured over 200 retrofit modification kits to be installed on P-38J-10-LO and J-20-LO already in Europe, but the USAAF C-54 carrying them was shot down by an RAF pilot who mistook the Douglas transport for a German Focke-Wulf Condor. Unfortunately the loss of the kits came during Lockheed test pilot Tony LeVier's four-month morale-boosting tour of P-38 bases. Flying a new Lightning named "Snafuperman" modified to full P-38J-25-LO specs at Lockheed's modification center near Belfast, LeVier captured the pilots' full attention by routinely performing maneuvers during March 1944 that common Eighth Air Force wisdom held to be suicidal. It proved too little too late because the decision had already been made to re-equip with Mustangs.

The P-38J-25-LO production block also introduced hydraulically-boosted ailerons, one of the first times such a system was fitted to a fighter. This significantly improved the Lightning's rate of roll and reduced control forces for the pilot. This production block and the following P-38L model are considered the definitive Lightnings, and Lockheed ramped up production, working with subcontractors across the country to produce hundreds of Lightnings each month.

Monday, September 12, 2011

Here is my composite image based off of one of Richard McKenna's pre production artwork (above) from 2001 a space odyssey.In the image it shows an alien tetrahedron in orbit above Jupiter with my scratch built model of the Discovery/Dragonfly parked alongside. As you can see there are stars in the stargate as described in the novel.The tetrahedron idea was eventually rejected by Kubrick in favour for the black monolith that we are all familiar with.Images of the model can be seen here.

Sunday, September 11, 2011

Here are some better images of Artesania Latina's 1/48 scale H.M.S. Bounty. This model took me almost 600 hours to construct and let me tell you after finishing a model such as this one does not wish to look at another model let alone a model ship for quite some time after that. Some models because they are so time consuming can beat the hell out of you but I loved every minute of it. It is interesting to note but as far as ship commanders went Lt. William Bligh was actually one of the better ones regardless as to how Hollywood has made him out to be. He was generally good to his men and he had an extreme reluctance to physically punishing his men when it was warranted instead preferring a verbal assault something Bligh was extremely adept at and at times got him into trouble. Now Captain George Vancouver there was a sadistic S.O.B sometimes flogging his men so hard they sometimes died. Why they named a city after him I'll never know, not exactly the nicest of chaps. Perhaps not enough research was done on him before naming the city, but I digress. If you want to see the movie I think has the closest representation and accuracy as to what really happened with The Bounty I'd suggest checking out The Bounty (1984) starring Anthony Hopkins and Mel Gibson but remember although a good movie take it with a grain of sea salt. Yarr shiver me timbers kiss the black spot!

From Wikipedia"

HMSBounty (known to historians as HM Armed Vessel Bounty, popularly as HMAVBounty, and to many simply as "The Bounty"), famous as the scene of the Mutiny on the Bounty on 28 April 1789, was originally a three-masted cargo ship, the Bethia, purchased by the British Admiralty, then modified and commissioned as His Majesty's Armed Vessel the Bounty for a botanical mission to the Pacific Ocean.

Bounty began her career as the collierBethia, built in 1784 at the Blaydes shipyard in Hull. Later she was purchased by the Royal Navy for £2,600 (roughly £260 thousand / €474 thousand / $613 thousand in modern currency) on 26 May 1787 (JJ Colledge/D Lyon say 23 May), refit, and renamed Bounty. She was a relatively small sailing ship at 215 tons, three-masted and full-rigged. After conversion for the breadfruit expedition, she mounted only four 4-pounders (2 kg cannon) and ten swivel guns. Thus she was very small in comparison to other three-mast colliers used for similar expeditions: Cook's Endeavour displaced 368 tons and Resolution 462 tons.

Some 1,300 miles (2,100 km) west of Tahiti, near Tonga, mutiny broke out on 28 April 1789. Despite strong words and threats heard on both sides, the ship was taken bloodlessly and apparently without struggle by any of the loyalists except Bligh himself. Of the 42 men on board aside from Bligh and Christian, 18 joined Christian in mutiny, two were passive, and 22 remained loyal to Bligh. The mutineers ordered Bligh, the ship's master, two midshipmen, the surgeon's mate (Ledward), and the ship's clerk into Bounty'slaunch. Several more men voluntarily joined Bligh rather than remaining aboard. Bligh and the others in the launch sailed 30 nautical miles (56 km) to Tofua in search of supplies, but were forced to flee after attacks by hostile natives resulted in the death of one of the men. Bligh then undertook an arduous journey to the Dutch port of Coupang, located over 3,500 nautical miles (6,500 km) from Tofua. He safely landed there 47 days later, having lost no men during the voyage except the one killed on Tofua.

The mutineers sailed for the island of Tubuai, where they tried to settle. After three months of being terrorized by the cannibalistic natives, however, they returned to Tahiti. Sixteen of the mutineers and the four loyalists who had been unable to accompany Bligh remained there, taking their chances that the Royal Navy would find them and bring them to justice.

Immediately after setting the sixteen men ashore in Tahiti in September 1789, Fletcher Christian, eight other crewmen, six Tahitian men, and 11 women, one with a baby, set sail in Bounty hoping to elude the Royal Navy. According to a journal kept by one of Christian's followers, the Tahitians were actually kidnapped when Christian set sail without warning them, the purpose of this being to acquire the women.

The mutineers passed through the Fiji and Cook Islands, but feared that they would be found there. Continuing their quest for a safe haven, on 15 January 1790 they rediscovered Pitcairn Island, which had been misplaced on the Royal Navy's charts. After the decision was made to settle on Pitcairn, livestock and other provisions were removed from the Bounty. To prevent the ship's detection, and anyone's possible escape, the ship was burned on 23 January 1790 in what is now called Bounty Bay.

Thirty-five years later in 1825, HMS Blossom on a voyage of exploration under Captain Frederick Beechey, arrived on Christmas Day off Pitcairn and spent 19 days there. Captain Beechey later recorded this in his 1831 published account of the voyage, as did one of his crew, John Bechervaise, in his 1839 Thirty-Six years of a Seafaring Life by an Old Quarter Master. Beechey prints a detailed account of the mutiny as recounted to him by the last survivor, Adams. Bechervaise, who gives a detailed account of the life of the islanders, says he found the remains of Bounty and took some pieces of wood from it which were turned into souvenirs such as snuff boxes.

(Beechey's account is rare; there is a copy in the Caird Library in Greenwich. Original copies of John Bechervaise's privately printed book are also rare but has been reprinted in facsimile by Kessinger).

Luis Marden discovered the remains of the Bounty in January 1957. After spotting remains of the rudder,(which had been found in 1933 by Parkin Christian, and is still displayed in the Fiji Museum in Suva), he persuaded his editors and writers to let him dive off Pitcairn Island, where the rudder had been found. Despite the warnings of one islander – "Man, you gwen be dead as a hatchet!" – Marden dived for several days in the dangerous swells near the island, and found the remains of the fabled ship: a rudder pin, nails, a ships boat oarlock, fittings and a Bounty anchor which he raised. He subsequently met with Marlon Brando to counsel him on his role as Fletcher Christian in the 1962 film Mutiny on the Bounty. Later in life, Marden wore cuff links made of nails from the Bounty. Marden also dived on the wreck of HMS Pandora and left a Bounty nail with the Pandora.

Some of her remains, such as her ballast stones, are still partially visible in the waters of Bounty Bay.

The last of the Bounty's 4-pounders was recovered in 1998 by an archaeological team from James Cook University and was sent to the Queensland Museum in Townsville to be stabilised through lengthy conservation treatment, i.e. nearly 40 months of electrolysis. The gun was subsequently returned to Pitcairn Island where it has been placed on display in a new community hall.